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DNV GL Issues Landmark Study of R&D Pathways for Supersized Wind Turbine Blades

March 7, 2019

-- Wind turbines are approaching sizes that will limit developable sites due to logistical and transportation challenges -- To realize continued progress, the wind industry must accelerate R&D into innovative approaches to blade design, manufacturing and transportation. -- DNV GL’s study identifies three innovation pathways to direct R&D for solutions that will help to mitigate these issues

OAKLAND, Calif., March 07, 2019 (GLOBE NEWSWIRE) -- DNV GL today released an in-depth study, commissioned by the U.S. Department of Energy’s Lawrence Berkeley National Laboratory, which examines the challenges associated with manufacturing and deploying next-generation, increasingly larger land-based wind turbines. In the past decade, the U.S. wind energy industry has achieved significant improvements in energy production and cost efficiency, driven in part by increased turbine, blade, and tower size. However, the industry is quickly approaching a logistical cost and capability ceiling as turbine components become too large for existing infrastructure and transportation to accommodate.

Currently the largest blades deployed in the U.S. are 67 m, but blades up to 88.4 m—or almost as long as a football field—have been deployed in Europe; blades up to 115 m are on the horizon. As turbine component sizes increase, logistical constraints can either reduce the number of developable sites or elevate costs, which can make some potential sites economically uncompetitive. Finding new solutions to logistical challenges associated with ever-larger components can enable the wind industry to achieve optimal wind levelized cost of energy (LCOE) options for every region of the United States.

Innovation pathways for high-value R&D opportunities

DNV GL explored three innovation pathways to help identify high-value R&D opportunities:

-- Innovative transportation: To address physical constraints and challenges, new methods can facilitate the transportation of blades from factories to wind projects via road, rail, or air. -- Segmented blades: Segmented or modular blades may enable the use of more cost-effective transportation, but must also account for the impacts on blade design, manufacturing, and on-site assembly. -- On-site manufacturing: Deploying a temporary blade manufacturing factory at the project site to fabricate blades from raw materials to finished product largely eliminates transportation challenges associated with longer blades.

“DNV GL identified a number of R&D activities that could make contributions to the viable development of supersized blades. These recommendations are feeding into the U.S. Department of Energy-funded ‘Big Adaptive Rotor’ project to assess and prioritize technology needed to develop a cost-competitive land-based 5-MW turbine with 100-meter-long blades,” said Ryan Wiser, senior scientist, Lawrence Berkeley National Laboratory.

Acceleration of R&D

The acceleration of R&D to make supersized blades feasible requires collaboration between researchers in the United States, turbine manufacturers, blade manufacturers, and transportation logistics companies. Blades are the most critical component in determining the technical and economic performance of wind turbines. The logistics associated with supersized blades adds additional levels of complexity into the development process, which the industry and researchers must work collaboratively to address.

“To realize continued progress in making wind energy cost-competitive across all regions in the U.S., the wind industry must accelerate R&D in innovative approaches to blade design, manufacture and transportation,” said Richard S. Barnes, executive vice president, Energy North America at DNV GL. “The good news is that there appears to be fertile ground for R&D and accessible solutions on the near horizon.”

High-value R&D areas include:

-- Further advances in high-stiffness / low-cost materials like industrial carbon fiber and thermoplastics materials. -- Advanced controls and sensor technologies that could be applied to monitor or enable blade bending in transport or monitor or control segmented blade loads such that lower-weight blades can be achieved. -- Reducing the blade chord dimension would enable operation at higher tip speeds and improves blade transport potential, but issues related to aeroacoustics and leading-edge erosion need further improvement. Advanced aeroelastic modelling of dynamic stability and deflections can enable the development of more slender blades that can allow controlled deflection during transport.

The pathways identified by this study represent opportunities that, if realized, could significantly enable wide-scale deployment of supersized turbines across all regions of the United States.

For more detail on the innovation pathways, download our report, R&D Pathways for Supersized Wind Turbine Blades.

About DNV GL

DNV GL is a global quality assurance and risk management company. Driven by our purpose of safeguarding life, property and the environment, we enable our customers to advance the safety and sustainability of their business. We provide classification, technical assurance, software and independent expert advisory services to the maritime, oil & gas, power and renewables industries. We also provide certification and supply chain services to customers across a wide range of industries. Operating in more than 100 countries, our experts are dedicated to helping customers make the world safer, smarter and greener.

DNV GL in the power and renewables industry

DNV GL delivers world-renowned testing and advisory services to the energy value chain including renewables and energy management. Our expertise spans onshore and offshore wind power, solar, conventional generation, transmission and distribution, smart grids, and sustainable energy use, as well as energy markets and regulations. Our experts support customers around the globe in delivering a safe, reliable, efficient, and sustainable energy supply.

Learn more at www.dnvgl.com/energy

A photo accompanying this announcement is available at http://www.globenewswire.com/NewsRoom/AttachmentNg/c027ca07-a7dc-418c-9c51-034d7969bd99

Media Contact: Bethany Genier DNV GL Energy Regional Communications Manager, North America Mobile +1 339 927 8815 Direct +1 781 393 7000 Email: Bethany.genier@dnvgl.com

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